Difference between revisions of "Atopic Dermatitis"
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Several factors exist that in normal dogs may by insufficient to cause pruritus. However, when these occur at the same time as allergen exposure in atopic dogs, there can be an additive effect that breaks the threshold for pruritus. These "flare factors" include ectoparasites, microbial infections, stress and environmental effects. When treating for atopic dermatitis it is therefore critical to keep these factors to a minimum. Atopic dogs should be regularly treated with an ectoparasiticide against fleas and mites, and secondary bacterial or ''Malassezia'' infections should be identified and treated promptly. Stress should be avoided and products that may be irritant, such as cleaning materials, should not be used in the environment. This requires a certain amount of vigilance on the part of the owners. | Several factors exist that in normal dogs may by insufficient to cause pruritus. However, when these occur at the same time as allergen exposure in atopic dogs, there can be an additive effect that breaks the threshold for pruritus. These "flare factors" include ectoparasites, microbial infections, stress and environmental effects. When treating for atopic dermatitis it is therefore critical to keep these factors to a minimum. Atopic dogs should be regularly treated with an ectoparasiticide against fleas and mites, and secondary bacterial or ''Malassezia'' infections should be identified and treated promptly. Stress should be avoided and products that may be irritant, such as cleaning materials, should not be used in the environment. This requires a certain amount of vigilance on the part of the owners. | ||
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+ | ===Improving Barrier Function== | ||
In normal animals, the skin has an important barrier function. The integrity of the epithelium may be impaired in atopic animals, facilitating further exposure to allergens. Finding ways to help improve the barrier function of the epidermis can contribute towards the effective management of atopy. Food trials are often used during the course of a work-up for atopic dermatitis to eliminate food allergy as a cause of pruritus. Many atopic animals non-specifically improve during food trials on prescription hypoallergenic diets, which may be attributable to several of their components. The inclusion of zinc and long-chain omega essential fatty acids is thought to reduce inflammation, and substances such as inositol, choline, histidine, pantothenate and nicotinamide may help improve epidermal lipid barrier<sup>4</sup>. The use of topical shampoos and emollients can also be beneficial. As well as physically removing allergens from the skin and coat, moisturising shampoos can hydrate the skin and improve the lipid barrier. Colloidal oatmeal may also have a direct antipruritic action<sup>4</sup>. Anti-microbial or anti-scaling shampoos, and ear cleaners can prove useful in certain cases depending on presentation. The effects of essential fatty acids in atopic dermatitis have been subjected to numerous clinical trials. EFA supplementation alters incorporation into cell membranes, which may reduce production of pro-inflammatory leukotrienes and prostaglandins<sup>4</sup>. The cutaneous lipid barrier may also be improved. However, there is some conflicting informtation, and high levels of supplementation may be neccessary to give beneficial effects. | In normal animals, the skin has an important barrier function. The integrity of the epithelium may be impaired in atopic animals, facilitating further exposure to allergens. Finding ways to help improve the barrier function of the epidermis can contribute towards the effective management of atopy. Food trials are often used during the course of a work-up for atopic dermatitis to eliminate food allergy as a cause of pruritus. Many atopic animals non-specifically improve during food trials on prescription hypoallergenic diets, which may be attributable to several of their components. The inclusion of zinc and long-chain omega essential fatty acids is thought to reduce inflammation, and substances such as inositol, choline, histidine, pantothenate and nicotinamide may help improve epidermal lipid barrier<sup>4</sup>. The use of topical shampoos and emollients can also be beneficial. As well as physically removing allergens from the skin and coat, moisturising shampoos can hydrate the skin and improve the lipid barrier. Colloidal oatmeal may also have a direct antipruritic action<sup>4</sup>. Anti-microbial or anti-scaling shampoos, and ear cleaners can prove useful in certain cases depending on presentation. The effects of essential fatty acids in atopic dermatitis have been subjected to numerous clinical trials. EFA supplementation alters incorporation into cell membranes, which may reduce production of pro-inflammatory leukotrienes and prostaglandins<sup>4</sup>. The cutaneous lipid barrier may also be improved. However, there is some conflicting informtation, and high levels of supplementation may be neccessary to give beneficial effects. |
Revision as of 18:15, 26 August 2010
Description
Atopic dermatitis is a heritable disorder in which animals are hypersenstive to common environmental allergens. It is one of the most common skin diseases of dogs worldwide.
The most common allergens involved in atopic dermatitis are those of house dust mites (Dermatophagoides farinae) and grain mites. Human and animal danders, house dust, grass and tree pollen and moulds also frequently incite reactions. Susceptible animals produce allergen-specific IgE to these normally-innocuous allergens, which then binds to receptors on cutaneous mast cells. Atopic animals may have defects in the epidermis, leading to impaired barrier function, and it is thought that further allergen exposure occures via percutaneous absorption. This further exposure gives mast cell degranluation, releasing istamine, cytokines, chemokines, leukotrienes, prostaglandins and other chemical mediators. This is a type 1 (immediate) hypersensitivity reaction1, and leads to vasodilation, inflammatory cell infiltration and pruritus. It appears that the cytokines involved are abnormally biased towards a Th2 response. IL-4 in particular is produced; this cytokine is responsible for B-cell production of IgE. Bacterial superantigens and autoantigens released due to keratinocyte damage play a role in perpetuating inflammation.
Signalment
Atopic dermatitis is a disease of dogs, although it can occur sporadically in the cat1. The typical age of onset of atopic dermatitis is between 6 months and 3 years of age and signs are hardly ever seen in animals under 6 months of age. Signs may be so mild at first thtat they are not noted, but usually progress to become clinically apparent1. Atopy is heritable and so breed predispoitions occur. Susceptible breeds include the : Beaceron, Boston Terrier, Boxer, Cairn Terrier, Cocker Spaniel, Dalmation, English Bulldog, English Setter, Fox Terrier, Sealyham Terrier, Setters, Shar-Pei, West Highland White Terrier, Wire Hiared fox Terrier, and Yorkshire Terrier2. Certain breeds such as the Cocker Spaniel, Dachshund, Doberman Pinscher, German Shepherd, German Short-haired Pointer and Poodle appear to have a decreased risk of atopy. There is no sex predilection.
Diagnosis
The diagnosis of atopic dermatitis is based on the signalment, athorough history and appropriate physical examination findings. Other causes of pruritus must also be ruled out. The differential diagnoses are1:
- Food allergy: ruled out by a dietary exclusion trial.
- Flea allergy dermatitis: ruled out observing response to ectoparasiticides.
- Contact dermatitis: ruled out by confining animal to one area covered in e.g. newspaper.
- Scabies:ruled out observing response to ectoparasiticides.
Intradermal and serologic allergy testing are available but are not used to make a diagnosis of atopy. Their purpose is to identify the specific offending allergens in an animal in order than immunotherapy may be pursued. The results of allergy testing are only significant if the history and clinical signs are also suggestive of atopic dermatitis.
Clinical Signs
Signs are often, but not always, seasonal. Pruritus is the hallmark of atopic dermatitis and may be the only complaint. This gives rise to self-trauma, causing lesions. Lesions commonly include alopecia, erythema, scaling, crusting, excoriations and salivary staining. Macular-papular eruptions are occasionally seen2. With time, lichenification, and hyperpigmentation develops. Because the route of allergen contact is thought to be percutaneous absorption1, 2, it follows that hairless regions are most frequently affected: the face, ears, axillae, feet and inguinal regions are predilection sites. Secondary infections such as superficial staphylococcal pyoderma and Malassezia are common, and otitis externa often occurs concurrently2, 3, 4. A small number of cases exhibit only chronic or recurrent otitis externa. Another uncommon presentation is allergic rhinitis, manifesting as sneezing, nasal discharge or allergic conjunctivitis1, 2.
Laboratory Tests
Routine haematology and biochemistry rarely show any abnormalities in dogs, but eosinophilia is often seen in cats1. The measurement of total serum IgE levels is not useful in the diagnosis of atopic dermatitis as IgE levels do not significantly differ betweem atopic and normal animals2. IgE levels are also influence by the presence of parasites, vaccinations and breed, and so this test is not reliable
Allergen-specific IgE tests are only useful when a diagnosis of atopic dermatitis has already been reached by consideration of histoty and clinical exam, and by ruling out other causes of pruritus. The test is used to identify allergens for immunotherapy by evaluating serum levels of IgE specific for a variety allergens. The exact technique varies between laboratories, but the principle is the same: serum is allowed to react with the allergen before excess serum and antibodies are rinsed away. An IgE-specific reagent linked to an indicator is added, and the amount that binds is proportional to the amount of allergen-sprecific IgE2. This can then be quantified. Several factors can adversely influence the test results. These include age, season, use of corticosteroids and laboratory inaccuracies.
Other Tests
Intradermal skin tests determine the ability of allergens injected intradermally to cause mast cell degranulation leading to a subsequent wheal and flare reaction. It is therefore a close approximation of the pathogenesis of atopic dermatitis, and is a useful tests for revealing specific allergens for use in immunotherapy. Aqueous allergens are used for testing and include such things as house dust mites, pollens, moulds, insects and epidermal antigens. These should be stored in the fridge to maintain potency, and allowed to reach room temperature before testing2. Test results can be affected or inhibited by numerous factors such as medications, sedatives and stress. Drugs shown to affect intradermal skin testing include antihistamines, tricyclic antidepressants and glucocorticoids. Withdrawal times of 2, 4 and 8 weeks have been suggested for topical, oral and long-acting injectable steroids respectively, although this may be diffcult in a very pruritic animal. Some animals require sedation for intradermal skin testing and xylazine and medetomidine have been shown not to affect results. Diazepam and acepromzine should not be used2.
26-27 gauge needles are used to inject allergen intradermally. Histamine is used as a positive control, and isotonic saline as a negative. Approximately 0.05-1.0 ml solution is injected at each site, and after around 15 minues the test is read by scoring each allergen based on the size of the bleb.
Biopsy
Biopsies may help rule out other differential diagnoses, but do not show any pathognomic changes for atopic dermatitis1.
Pathology
Gross findings reflect the lesions seen in life.
Histologic changes are non-specific but include acanthosis, a mixed mononuclear perivascular dermatitis, sebaceous gland metaplasia and secondary superficial pyoderma1.
Treatment
Several factors exist that in normal dogs may by insufficient to cause pruritus. However, when these occur at the same time as allergen exposure in atopic dogs, there can be an additive effect that breaks the threshold for pruritus. These "flare factors" include ectoparasites, microbial infections, stress and environmental effects. When treating for atopic dermatitis it is therefore critical to keep these factors to a minimum. Atopic dogs should be regularly treated with an ectoparasiticide against fleas and mites, and secondary bacterial or Malassezia infections should be identified and treated promptly. Stress should be avoided and products that may be irritant, such as cleaning materials, should not be used in the environment. This requires a certain amount of vigilance on the part of the owners.
=Improving Barrier Function
In normal animals, the skin has an important barrier function. The integrity of the epithelium may be impaired in atopic animals, facilitating further exposure to allergens. Finding ways to help improve the barrier function of the epidermis can contribute towards the effective management of atopy. Food trials are often used during the course of a work-up for atopic dermatitis to eliminate food allergy as a cause of pruritus. Many atopic animals non-specifically improve during food trials on prescription hypoallergenic diets, which may be attributable to several of their components. The inclusion of zinc and long-chain omega essential fatty acids is thought to reduce inflammation, and substances such as inositol, choline, histidine, pantothenate and nicotinamide may help improve epidermal lipid barrier4. The use of topical shampoos and emollients can also be beneficial. As well as physically removing allergens from the skin and coat, moisturising shampoos can hydrate the skin and improve the lipid barrier. Colloidal oatmeal may also have a direct antipruritic action4. Anti-microbial or anti-scaling shampoos, and ear cleaners can prove useful in certain cases depending on presentation. The effects of essential fatty acids in atopic dermatitis have been subjected to numerous clinical trials. EFA supplementation alters incorporation into cell membranes, which may reduce production of pro-inflammatory leukotrienes and prostaglandins4. The cutaneous lipid barrier may also be improved. However, there is some conflicting informtation, and high levels of supplementation may be neccessary to give beneficial effects.
In animals with demonstrated sensitivities to specific allergens, allergen-specific therapy can form part of the treatment regimen for atopic dermatitis. It may be possible to limit exposure to certain allergens. For example, exposure to house dust mites can be limited by keeping animals out of the bedrrom and using hypoallergenic matresses and pillow covers. Filtered vacuum cleaners can be used, and animals should be kept out of rooms for two to three hours after vacuuming. Soft toys harbour many dust mites and so should be avoided, or frozen for 24 hours once a month to kept the burden low. The animal's bedding should be washed at a temperature of greater than 70°C and the bed wiped out regularly with a damp cloth. Environmental flea control products are effective at killing dust mites in the home. If the animal is allergic to pollens, walking routes can be altered to avoid contact with the specific source, be it grasses, trees or weeds. Dogs can be washed after walking through vegetation to remove allergens, and lawns can be mown short.
Allergen specific immunotherapy (ASIT) can also be implemented. This involves the subcutaneous injection of gradually increasing quantities of allergen. The mechanism of action is not fully understood but it seems that administering large doses of allergen in an unusual route results in tolerance,sup>4. The effests of ASIT are highly variable: around 25% of dogs can be controlled with immunotherapy alone, a further 50% show some improvement, and 25% are non-responsive. Effects can take some time to be appreciated, and so a 9 to 12 month trial of immunotherapy is recommended. Generally, injections are initially given 1-2 weeks apart, building up to the full dose. Animals are usually monitored for around 30mins after the first few treatments, because anaphylaxis is an uncommon side-effect. Once the full dose is reached, the interval between injections can be extended to roughly once monthly. Most animals require ongoing treatment at this interval to maintain the effects of ASIT, but a few animals can be gradually weaned off ASIT.
Anti-inflammatory therapy
Anti-inflammatory therapy is used as required to control residual pruritus and inflammation. Almost all atopics will require treatment in the short to medium term, but the dose, frequency and/or potency of drugs can be reduced if other treatments are successful in the long term.
Cyclosporine
Cyclosporine suppresses T-cells, which have been implicated in the pathogenesis of canine AD. I t also inhibits other key cells in allergic inflammatory reactions such as mast cells and eosinophils. This has profound effects on antigen presentation, IgE production, mononuclear cell activity and the development of inflammatory lesions, although at the doses used in canine AD, cyclosporine is immuno-modulating rather than immunosuppressive (Figure 2).
Cyclosporine is administered for canine AD at a dose of 5 mg/kg once daily. Controlled studies have shown that it is at least as effective as prednisolone and methyl-prednisolone (9,10), although this may take 2-3 weeks to become apparent. Glucocorticoids can be initially coadministered to achieve more rapid remission. Approximately one third of treated dogs require daily dosing, one third every other day and one third twice weekly to maintain remission. Using cyclosporine as part of an integrated management program can be more cost-effective than relying on it alone.
The effect on intradermal testing and serology is thought to be minimal, although the data is sparse. Anecdotal data suggests that cyclosporine does not affect the response to ASIT any more than glucocorticoids
Cyclosporine is well tolerated by the majority of dogs. Transient anorexia and vomiting are the most likely problems. Persistent vomiting is uncommon but may be eased by administering with food, and/or by using the gastrointestinal protectant sucralfate or H-2 blocking agents such as ranitidine. Other uncommon adverse effects include hirsuitism, increased shedding of hair and transient alopecia, gingival hyperplasia, papillomatosis, diarrhea, lameness and muscle tremors, and erythema and edema of the ears. These are largely dosedependent and reversible. The nephropathy, hepatopathy and hypertension seen in humans have not been recognized in dogs except at doses >20 mg/kg. Immunosuppression is a potential concern. Inhibition of cell-mediated immunity in particular could result in bacterial and protozoal infections, dermatophytosis and demodicosis. In practice, however, the risk appears to be very small and most atopic dogs experience fewer secondary infections following treatment. Inhibition of T-helper cell function and β-cell activation could affect the response to vaccination.-->steroids Some authors advocate withdrawing treatment for up to two weeks either side of vaccination, although this will lead to worsening of the skin condition.
Phytopica™
Phytopica™, a compound derived from Rehmannia glutinosa, Paeonia lactiflora and Glycyrrhiza uralensis improved canine AD in a preliminary study (14). In a recent randomized, double-blind and placebo-controlled trial of 120 dogs Phytopica™ (200 mg/kg/day) appeared to be an efficacious, safe and palatable non-steroidal treatment for canine AD, although the effect was modest with most dogs achieving a 20-50% improvement in clinical signs (15). Responses are typically evident within four weeks (Figure 4). Adverse effects are self-limiting gastro-intestinal disturbances such as diarrhea and vomiting. This is generally a better safety profile than has been reported for other anti-inflammatory therapies (16).
Glucocorticoids
Glucocorticoids are simultaneously the most used and abused drugs in veterinary dermatology. They are cheap, easy to administer and highly efficacious but are associated with a plethora of side-effects (17,18). At pharmacological doses they inhibit the expression of genes encoding a variety of molecules involved in immunity and inflammation, resulting in rapid and profound immunosuppression and decreased inflammation.
Glucocorticoids are highly effective in canine AD, but must be used with care and, ideally, as a last resort. Exploring alternative approaches will help minimize the dose and frequency required. Genuine seasonal AD that requires 3-4 months treatment each year, however, can usually be managed successfully with minimal problems. Short courses (0.5-1.0 mg/kg once daily for 3-5 days) can also be administered to treat flares of inflammation in dogs otherwise well controlled on other medication.
Topical treatment directs the steroid to affected skin and avoids the need for systemic therapy. Topical glucocorticoids can be used where inflammation is localized to relatively hairless skin, pyotraumatic dermatitis (‘hot-spots’) or in the ears and eyes.
Systemic therapy is necessary with more severe or widespread lesions. 0.5-1.0 mg/kg prednisolone is given once daily until remission. You can then administer the same dose every other day and then reduce the dose by 50% every 7-14 days until the lowest maintenance dose is established; or, gradually wean the alternate day dose off, and then establish the lowest every other day maintenance dose. The only suitable systemic drugs for alternate day dosing are prednisolone or methyl-prednisolone, but triamcinolone, betamethasone or dexamethasone can be used to achieve remission in severe cases. Injectable preparations should not be used unless absolutely necessary, as it cannot be withdrawn, the dose cannot be altered, nor the hypothalamic-pituitaryadrenal (HPA) axis allowed to recover.
Glucocorticoids will suppress reactions to intradermal allergen tests, although the effect on serology is believed to be less marked. It is currently recommended that you withdraw topical glucocorticoids for at least two weeks, short acting oral glucocorticoids for at least three weeks and longer acting injectable glucocorticoids for at least six weeks before allergy testing. Dogs on long term treatment or with iatrogenic hyperadrenocorticism may need considerably longer withdrawal times (Figure 5).
Common acute side-effects include polyuria and polydipsia. Other acute sideeffects include polyphagia and weight gain (which can be managed using a low calorie diet), panting and behavioral changes (including dullness and, rarely, aggression). The onset of iatrogenic hyperadrenocorticism is dose and duration dependent, but there is a wide variation in tolerance between individuals. Immunosuppression and secondary infections are quite common with long term treatment. Inhibition of cell-mediated immunity can result in demodicosis, dermatophytosis and infections with intracellular organisms. Immunosuppression and alterations in cutaneous barrier function commonly result in superficial pyoderma. Production of dilute urine is a factor that contributes to cystitis.
Hydrocortisone aceponate
Hydrocortisone aceponate is a novel topical diester glucocorticoid for the treatment of pruritus in dogs. Topical diester glucocorticoids overcome many of the adverse effects traditionally associated with systemic or topical glucocorticoid therapy. They are rapidly absorbed and exert potent anti-inflammatory effects within the epidermis and superficial dermis. Metabolism within the dermis, however, ensures that very little active compound reaches deeper tissues and the circulation, minimizing skin thinning and systemic effects. The topical formulation, furthermore, eases topical administration. The small dose volume, very small droplet size and volatile carrier help to ensure quick and easy application, penetration of even haired skin and rapid drying with minimal cutaneous after effects. The spray is formulated such that two sprays from 10 cm away will penetrate the coat and treat a 10 x 10 cm (i.e. palm sized area of skin). Early studies (unpublished) demonstrated good efficacy and safety in short term treatment of various pruritic disorders in dogs including pyotraumatic dermatitis and f lea allergic dermatitis. An open-label pilot study and preliminary findings from a randomized, doubleblind, placebo controlled study found that Cortavance® was effective and well-tolerated in managing canine AD. One dog has suffered a contact reaction, but adverse effects have not otherwise been noted. Once daily administration was sufficient to induce remission, after which a proportion of dogs can be maintained on every other day therapy. Twice weekly administration, however, resulted in a relapse in most dogs.
Antihistamines
A large review of clinical trials (16) concluded that there is no more than fair evidence of medium efficacy for the first generation antihistamines clemastine and a combination of chlorpheniramine and hydroxyzine, and the second generation (non-sedating) drug oxatomide. There may however be some synergistic activity with EFAs and glucocorticoids. Adverse effects of first generation drugs are uncommon and are usually linked to drowsiness. Adverse effects to second generation drugs are more common and include gastrointestinal tract upsets and cardiac arrhythmias.
Prognosis
If left untreated, the degree of pruritus worsens, but atopic dermatitis is not life threatening unless intractable pruritus warrants euthanasia1. Some cases may spontaneously resolve.
Links
References
- Tilley, L P and Smith, F W K (2004) The 5-minute Veterinary Consult (Fourth Edition),Blackwell.
- Beale, K M (2006) Atopic Dermatitis: Clinical Signs and Diagnosis. Proceedings of the North American Veterinary Conference 2006.
- Willemse, T (2007) The Newest on Canine Atopic Dermatitis. Proceedings of the Southern European Veterinary Conference & Congreso Nacional AVEPA.
- Merck & Co (2008) The Merck Veterianry Manual (Eight Edition), Merial.